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Use this Bengali Name Generator to find countless random Bengali names for your next gaming adventure, story or any other project.
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See the list of 100 random Bengali names
What are the meanings of names in Bengali culture?0007
Bengali culture is known for its strong traditions and adherence to traditional values. One of the most important aspects of Bengali culture is the importance of names.
A name is not only a reflection of a person’s personality, but also a marker of social status and honor. In Bengali society, it is considered very important to have a unique name that reflects heritage and identity. Many families take great pride in naming their children after relatives or ancestors, in the hope that their child will inherit some of the qualities and traits of the family. History of Bengali culture
Bengali culture has a long and varied past that goes back to the earliest written records of India. The region of Bengal, which is now part of the Indian state of West Bengal and the neighboring country of Bangladesh, is believed to be the place where this distinct culture originated. The various Indian tribes that were once part of the Gangaridai Kingdom, a larger Hindu kingdom, are the ancestors of the Bengali people. Hinduism is the predominant religion in Bengali culture. In addition, other religions such as Buddhism, Jainism and Islam have had a significant impact on Bengali culture today.
This has resulted in a combination of customs and beliefs that often go beyond the local culture. Their literature and customs are based on modern Bengali. The Roman script is used to write the Bengali language and the influence of the language can often be seen in the written works of the Bengali people. The earliest written evidence of the Bengali language can be found in the Middle Ages. The works of Rabindranath Tagore are the most famous examples of Bengali literature in the modern era. He is considered one of the most important writers of the modern era. Music and dance have also had a great influence on Bengali culture. Music is a big part of Indian culture and people often hear music from different parts of India. The capital of West Bengal, Kolkata is a musical mecca where pop, classical and alternative music is celebrated. Bengali culture is also heavily influenced by dance. Jatra, Garba and Dandiare are some of the most popular dances in the region. Each of these dances has its own culture and history.
Painting is the most common art form in Bengali culture. The Kaligat Pat, Patachitra and Kaligat schools of painting have existed for centuries and are still practiced today. These paintings often depict scenes from Hindu mythology, Indian history and contemporary Bengali life. The cuisine of Bengali culture is also extremely diverse. Fish curries and vegetable dishes are common household staples in Bengal. In addition, dal and rice are common foods in many Bengali households. The diverse beliefs, practices and backgrounds of the Bengali people make up the culture. The distinctiveness and vitality of a culture derive from its vast history and customs. 5 questions to help you come up with Bengali names
- What aspects of the Bengali tradition would you like to reflect in the name?
- Should the name have any particular letter(s) from a certain alphabet?
- Do you have any particular meaning in the title?
- Do you want a specific statement or mood for a name?
- Do you have a specific theme for the title?
Can I use the random Bengali names that this tool generates?
Yes, you can.
The Story Shack does not claim copyright on any of these names, but it is of course possible that some of the values this name generator provides are already owned by someone else, so please make sure you always do your due diligence. prudence. How many ideas can I generate with this Bengali Name Generator?
Generator The Bengali name generator can generate thousands of ideas for your project, so feel free to keep clicking and at the end use the handy copy function to export your Bengali names to the text editor of your choice. Enjoy!
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The man who subjugated half of the particles in the universe / Sudo Null IT News
We live literally on the eve of the era of quantum computers. The first experimental machines are already available for testing right now thanks to cloud technologies — and we will talk about this separately at the end of the article.
But the name of one of the greatest physicists of the 20th century, the fruits of whose work we are reaping now, 100 years later, is often left behind the scenes.
Shatyendranath Bose is little known outside of his native country. The Western media remember him exclusively in tandem with Einstein, limiting himself only to his last name. Here is a biography of a scientist from India, a patriot and thinker. He did no less for his country than his contemporary Xia Peisu did for China.
A country is created not only by its culture and traditions. The largest states rest on the shoulders of scientists who, like the Atlanteans, lay the foundation for the future prosperity of their fellow citizens.
«The man who controls half of the particles in the universe» — this is how a professor of physics once introduced Shatyendranath Bose to his students. Bose was an enthusiastic scientist. Erudite who laid the foundations of Bose-Einstein statistics and the theory of Bose-Einstein condensate.
Several prominent scientists have received the Nobel Prize for research related to the field of science that Bose actually discovered. However, the prize bypassed him.
Is there a reason to be sad? Hardly. The title of «ruler of half the particles in the universe» means a lot in itself. Early life
Shatyendranath Bose was born on January 1, 1894 in Calcutta. He was the eldest son in a large and relatively non-poor family, he had seven younger sisters. From an early age, Bose showed remarkable ability to learn and thirsted for knowledge.
His father, Shurendranath, worked as an accountant and encouraged his son’s abilities with all his might. Every morning, leaving for work, he wrote down on the floor of the veranda «homework» for his son — arithmetic problems. Bose solved them and in the evening he proudly showed the finished examples to his father.
At the age of 13, the boy was sent to a well-known school in Central Calcutta. There, the abilities of Shatyendranath also did not go unnoticed. Teachers recognized that in the field of mathematics and natural sciences he had no equal — and this in a prestigious school, where both teachers and students were like a selection.
In 1909, when he was in his sixteenth year, Bose decided to take an intermediate course in natural sciences at the Presidential University.
… Meanwhile, in the West, Albert Einstein was already deservedly known for his special theory of relativity, published in 1905.
Shatyendranath’s teachers at the Presidency College were the famous Jagadish Chandra Bose and Sir Prafulla Chandra Ray. At the age of 17, he successfully passed the midterms and two years later became a bachelor of science in mathematics. Needless to say, Shatyendranath was again the best in his class.
In 1915, at the age of 21, Bose received an M.A. in applied mathematics from the University of Calcutta. At the same time, he managed to set an absolute record for the average score — 92%.
… The First World War began in the West. Albert Einstein publishes the general theory of relativity.
The logical continuation of the career of any scientist is to receive a doctoral degree.
Anyone but Bose. It would be too easy. He preferred teaching to his doctoral dissertation. From 19From 16 to 1921 he lectured to students of the Physics Department of the University of Calcutta. Around this time, the just published general theory of relativity fell into the hands of Bose. Einstein’s work fascinated Bose — so much so that, with the help of his friend, he quickly translated Einstein’s scientific works from German into English and published a collection of them.
Separately, we note that Bose was a polyglot. He knew many languages well. Among them are Bengali, English, French, German and Sanskrit.
In the same year, 1921, Einstein was awarded the Nobel Prize for merits in the field of theoretical physics. In particular, for explaining the photoelectric effect. This was a turning point in the development of quantum theory. And it is unlikely that in all of India there would be a more devoted fan of Einstein than Bose.
Breakthrough
In the same year, Bose left his native Calcutta and got a job as a lecturer at the Faculty of Physics at the University of Dhaka (Bangladesh).
Here is what he said about the situation at the university in a letter to a friend: It’s been more than a month since I moved to your part of the country. The work has not yet begun. There were valuable things at the university, but due to total negligence they fell into a deplorable state. In addition, we suffer from a lack of scientific press. The management promised to issue several subscriptions and purchase old issues. There is even talk of a separate scientific library…
Thanks to the efforts of Bose, new departments and laboratories were opened at the university, in particular, advanced courses for students of the faculties of physics and chemistry. Bose lectured his students on thermodynamics and classical electromagnetism.
Just during one of his lectures, Bose felt that the existing deductions from Planck’s law of radiation were incomplete. After much thought and consultation with colleagues, Bose published an article in which, without using classical physics, he comes to the same results as Planck himself.
It was a real breakthrough. At first, the formula he derived was rejected by scientists as radical and contrary to conservative scientific views. But he did not lose heart. Instead, he sent his paper directly to Albert Einstein in Germany. In a way, Bose helped Einstein revive his scientific career. Ironically, the pioneer of the quantum revolution in the early 1920s actively thwarted it. Bose’s letter turned out to be a sobering breath of fresh air and occupied the attention of the great scientist.
Einstein immediately realized the significance of a letter from a young Indian physicist. Through his efforts, Bose’s article was translated into German and published in the Zeitschrift für Physik, a popular German scientific publication. This is how Bose-Einstein statistics was born.
Einstein was extremely impressed that, for the sake of scientific progress, an unknown young scientist from India decided to send him his controversial paper. He later wrote to Bose: “Your article is an important step forward.
And I really like her!” The more Einstein thought about the article, the more it influenced his worldview. The reason Bose’s work gave accurate results was because, since photons are indistinguishable from each other, you can’t treat any two photons with the same energy as two different photons. This is a pretty simple idea to understand. Consider an example.
You simultaneously toss two distinct and unbiased coins into the air. There are 4 possible outcomes:
The chance of getting two heads is only 1/4. But everything changes if you make the coins indistinguishable from each other. In this situation, three outcomes are already possible: simultaneously two “eagles”, simultaneously two “tails” and “eagle” + “tails”. Thus, the chance of getting two heads is increased to 1/3. In the world of Bose statistics, the probability of certain events occurring may differ from our expectations.
Einstein realized the importance of this assumption even before Bose himself.
He took the idea of the Indian scientist and extended it to atoms. This allowed Einstein to predict the existence of the phenomenon known to us as the Bose-Einstein condensate. The Bose-Einstein condensate is the so-called fifth state of matter. In it, each atom becomes indistinguishable from the others, and a giant superatom is formed. In an ordinary gas, the atoms are in chaotic motion at very high speeds, while in the case of a Bose-Einstein condensate they stay together in a state of perfect harmony.
It wasn’t until 1995, 70 years after this prediction was made, that scientists discovered the existence of a Bose-Einstein condensate.
This work became for Bose the key to collaboration with the most prominent scientists in Europe of those years. To do this, he applied for a two-year vacation. The university released Bose only after he showed the vice-chancellor of the university a letter of thanks from Einstein.
Upon arrival in Paris, Bose wrote to his idol:
“The university gave me two years of leave.
Just a week ago I came to Paris for the first time. I do not know if I will be able to continue my work under your leadership in Germany. However, if you agree to become my leader, my long-cherished dream will come true.” Bose was impatiently waiting for Einstein to answer his request. At the same time, he had the good fortune to meet Marie Curie and help her make some measurements of the piezoelectric effect. Maurice de Broglie then personally introduced Bose to X-ray diffraction and spectroscopy. Finally, the answer came from Einstein:
“Thank you very much for your letter. Glad to have the opportunity to meet you in person soon.”
Bose went to Berlin. He did not succeed in working with Einstein himself, but the meeting with the master bore fruit. Einstein wrote a letter of recommendation for Bose. This allowed him to meet the best German scientists: Fritz Haber, Lise Meitner and Max Born.
In 1926 Bose returned to Dhaka. He was 32 years old, but without a doctorate, he could not qualify for a professorship.
The situation was saved by the same letter from Einstein: Bose was appointed head of the Department of Physics at the University of Dhaka. The knowledge gained in Europe helped Bose reform the university. He independently developed equipment for the X-ray crystallography laboratory. He built a lot of other laboratories, knocked out the budget for the construction of the library from the management. Under his leadership, a center for research in the field of unified field theories was also opened. Until 1945, Bose continued active work at the faculty.
When the division of India became inevitable, he had to return to Calcutta. The secession of Pakistan seemed to him a huge wound in the heart of his beloved country. Due to depression, Bose could not focus on scientific research.
He taught in his hometown until his retirement. Innovative ideas brought Bose admiring reviews from Einstein and colleagues. Provided a place in the pantheon of the largest physicists. But few people know about the human qualities of Bose.
He was not just a scientist, but a man who wanted to comprehend the world around him in all its fullness, in all its complexity. And directly scientific work was only a small part of his own universe. In addition, he was a passionate patriot. He put a lot of effort into promoting Bengali as the language of instruction. Bose personally translated dozens of articles into Bengali. He considered it his duty to open science to his compatriots in their native language.
Retirement
At the age of 62, Bose left his job and retired as an honorary professor. Countless invitations to major events and parties followed. Bose turned down most of the invitations. The familiar pleasure of science was missing. Constant search for new knowledge and discoveries. Therefore, after a short time, he returned to Calcutta University and continued his research in the field of nuclear physics, organic chemistry and unified field theory. Here he was in his place.
Just at this time, Paul Dirac, the famous physicist, visited Calcutta with his wife.
The story of one of the joint trips of Bose and Dirac is noteworthy. Dirac and his wife got a comfortable back seat in the car. Big Bose sat in front, next to the driver. Bose took two of his students as fellow travelers. Somehow, everyone managed to fit in next to Bose in the front seat. To a surprised question about whether they are not crowded, Bose laughed and replied in a disarming tone: “We believe in Bose-Einstein statistics.” And, as Dirac explained to his surprised wife, “in Bose-Einstein statistics, everything is very closely connected.”
It was Dirac, who became a close friend of Bose, who proposed the term «boson» in memory of the scientist’s contribution to theoretical physics.
In 1958 Bose was elected a Fellow of the Royal Society of London. A year later, the government appointed him a national professor. Bose held this position until his death. As mentioned above, he never received the Nobel Prize. When Bose was asked what he thought about this, he modestly replied: «I have received all the recognition that I deserve.
» He died in Calcutta at the age of 80. A whole era has gone with him. Without stretch, one can say that Shatyendranath Bose is one of the greatest physicists in India. And not only on the basis of his scientific achievements, but also because he sincerely loved his country.
News instead of conclusion
At the very beginning of the article, we promised that we would return to the topic of quantum computing systems. Modern technologies make available what was once only seen in large scientific laboratories. For several years now, there have been quantum computing systems, access to which is provided by cloud solutions.
At the beginning of September it became known about another promising project. Whether he will fulfill his own promises or turn out to be another journalistic «quantum duck», time will tell. Here is a short description of the Canadian project Xanadu.
On September 2, , Toronto-based Xanadu announced the launch of the world’s first public photonic quantum computing platform.
